KR101636353B1 - Prefabricated 3-way flow control valve - Google Patents

Abstract

The present invention relates to a prefabricated three-way flow control valve, in which a flange is coupled to the outer periphery of the flow control valve, and inlet / outlet ports (102, 202) are formed at the center of the flange and communicated with a linear flow path of the inlet / A first housing 100 having flow control joints 104 and 204 formed on one side thereof and having a housing coupling flange 106 and 206 formed along the outer circumference of the flow control joints 104 and 204; A second housing (200); The first housing 100 and the second housing 200 correspond to the left and right sides of the housing fastening flange 106 and 206. The housing fastening flange 106 and the housing fastening flange 106 are connected to each other by a plurality of through holes 302, An O-ring groove 306 is formed on the left and right side surfaces between the coupling hole 302 and the fluid flow hole 304 so that an O-ring is hermetically held between the coupling hole 302 and the fluid flow hole 304, The flow control means 400 is coupled to control the opening and closing of the inflow outlets 102 and 202 of the first housing 100 and the second housing 200 so as not to interfere with the flow of the fluid, A flow control housing (300) communicating with the flow through hole (308) orthogonally and forming a tube fastening flange (310) along the outer periphery of the flow through hole (308); Are connected to the inlet and outlet ports 102 and 202 of the first housing 100 and the second housing 200 and are connected to the inlet and outlet ports 102 and 202 by the flow control means 400, The flow control means 400 is provided with a fluid flow passage hole 304 integrally formed with the flow control housing 300. The flow control means 400 has a sloped surface 502, A plurality of plugs 412 formed symmetrically inwardly at one end of each of the inlet and outlet openings 102 and 202 are formed symmetrically and a plurality of flow rates A trim housing 410 formed with control airtight grooves 414; (420) symmetrically formed to supply and discharge air from the outer periphery of the trim housing (410) to the plug engagement portion (412); The plug coupling portion 412 is fastened to the inner circumferential edge of each of the plug coupling portions 412 to a position where the adjustment through hole 420 is communicated with the plug coupling portion 412 so that the plug coupling portion is divided into the plug adjusting chamber PA and the plug fitting chamber 412 A guide disk 430 having a plurality of packing grooves 434 formed at the center of the rod guide hole 432 and having an O-ring for airtightness formed at the periphery of the rod guide hole 432, ; A plug shaft 444 in which a disk-shaped driving disk 446 is integrally formed at one end is formed and an outer circumferential edge is hermetically contacted with the flow control airtight groove 414 so as to maintain the airtightness of the plug coupling portion 412 The plug 442 is coupled to the other end of the plug shaft 444 to interact with the packing sheet 500 to control the fluid and the drive disk 446 is separated from the guide disk 430 by the guide disk 430 The plug 442 is located in the plug adjusting chamber PA of the plug engaging portion 412 and the plug 442 is located in the plug accommodating chamber PE of the plug engaging portion 412 partitioned by the guide disc 430, The shaft 444 is hermetically coupled to the rod guide hole 432 of the guide disk 430 so as to reciprocate linearly so that the drive disc 446 is pushed by the pneumatic pressure supplied through the adjustment hole 420, In the adjusting chamber PA, A fluid control unit 440 that is linearly reciprocated on the axis of the pawl 444 and configured to linearly reciprocate the plug 442 in the plug housing chamber PE to the inclined face 502 of the packing sheet 500 The flow rate control valve of the prefabricated three-way flow control valve.

Description

A prefabricated three-way flow control valve

The present invention relates to a prefabricated three-way flow control valve, and more particularly, to a prefabricated three-way flow control valve, in which a flow control valve is assembled into a first housing, a second housing and a flow control housing for three minutes, Of course, it is easy to disassemble and assemble, so that the installation of the flow rate control means is simple, and the maintenance and repair of the flow rate control means due to various fluid characteristics such as water shock, high temperature and high pressure is simple, A three-way flow control valve, a three-way flow control valve, a three-way flow control valve, and a three-way flow control valve.

Generally, the three-way valve is formed in three directions, ie, an inlet port and an outlet port of the valve body, so that the flow direction of the fluid through each inlet / outlet port can be switched according to the movement of the valve body. Or a structure in which the fluid is introduced through the two inlet and outlet and discharged to the other inlet and outlet.

Such a conventional three-way valve generally has a structure in which a ball-shaped valve body is rotated to control the flow of a fluid. However, since the friction between the valve body and the valve body causes a large load on the motor, And there is a limit to apply to control of high-temperature and high-pressure fluids.

Accordingly, a three-way valve has been proposed in which the valve body is opened and closed while linearly reciprocating to compensate for such a problem. However, the conventional three-way valve that controls the opening and closing operation while reciprocating linearly is operated by a linear reciprocating motion of the piston type. In the conventional three-way valve of the linear reciprocating type, And a motor for rotating the driving cam and the driving cam, the driven cam, and the motor, which are connected to each other, are provided as means for making the valve body linearly reciprocate along the inside of the valve body.

However, the three-way valve through the conventional linear reciprocating motion is complicated in construction and is not easy to disassemble and assemble, which causes a structural problem of maintenance and installation. In order to apply to a high temperature and high pressure fluid, . In addition, there is a problem that the cost of installation increases due to the troublesome necessity of replacing the whole due to breakage or damage in use, unnecessary maintenance cost increase, installation time, and eventually increasing the air of the entire facility.

In addition, the conventional three-way valve is configured to shut off the flow path in any one of the three-way flow paths and to communicate with the remaining flow paths, thereby limiting the use of the three-way valve. In addition to simply controlling the flow direction of the fluid in the pipeline, A check valve or the like must be additionally provided on the pipeline before the flow of three flow channels, thereby causing a problem of lowering installation workability and increasing facility cost. Further, in the conventional three-way valve, when the operation of the valve is controlled through one of the sides for controlling the fluid, all three directions are simultaneously controlled, so that it is impossible to individually control the three directions. There is a problem in that it is necessary to further install it on the pipeline.

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a steam generator which is applicable to ordinary fluids, high temperature and high pressure fluids, A three-way flow control valve, a three-way flow control valve, a three-way flow control valve, a three-way flow control valve, and a three-way flow control valve.

It is another object of the present invention to provide a prefabricated three-way flow control valve which can be combined with first and second housings and flow control housings of three minutes according to conditions of high-temperature and high-pressure fluids, and which can be variously interchanged.

Further, since the present invention is formed by the first and second housings and the flow control housing of three minutes, it is easy to replace due to leakage of high-temperature and high-pressure fluid, and it is formed for three minutes, Another object of the present invention is to provide a prefabricated three-way flow control valve that can be partially replaced when broken or damaged, thereby reducing maintenance costs.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a prefabricated three-way flow control valve capable of reducing a high-pressure fluid pressure in a valve to replace a large-capacity high-pressure valve with a small-

Furthermore, it is an object of the present invention to provide a prefabricated three-way flow control valve capable of applying pneumatic, mechanical, and electric flow control means for forming a pneumatic, mechanical, have.

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In order to solve the above-mentioned problems, the prefabricated three-way flow control valve according to the present invention includes a flange formed at the outer periphery of the flange and having inlet openings 102 and 202 at the center thereof, The first and second flow control joints 104 and 204 are formed on one side and the flow control joints 104 and 204 are formed on one side of the first and second housing flanges 106 and 206. The first and second housing flanges 106 and 206 are formed along the outer circumference of the flow control joints 104 and 204, 100); A second housing (200); The first housing 100 and the second housing 200 correspond to the left and right sides of the housing fastening flange 106 and 206. The housing fastening flange 106 and the housing fastening flange 106 have flange- An O-ring groove 306 is formed on the left and right side surfaces between the coupling hole 302 and the fluid flow hole 304 so that an O-ring is hermetically held between the coupling hole 302 and the fluid flow hole 304, The flow control means 400 is coupled to control the opening and closing of the inflow outlets 102 and 202 of the first housing 100 and the second housing 200 so as not to interfere with the flow of the fluid, A flow control housing (300) communicating with the flow through hole (308) orthogonally and forming a tube fastening flange (310) along the outer periphery of the flow through hole (308); Are connected to the inlet and outlet ports 102 and 202 of the first housing 100 and the second housing 200 and are connected to the inlet and outlet ports 102 and 202 by the flow control means 400, The flow control means 400 is provided with a fluid flow passage hole 304 integrally formed with the flow control housing 300. The flow control means 400 has a sloped surface 502, A plurality of plugs 412 formed symmetrically inwardly at one end of each of the inlet and outlet openings 102 and 202 are formed symmetrically and a plurality of flow rates A trim housing 410 formed with control airtight grooves 414; (420) symmetrically formed to supply and discharge air from the outer periphery of the trim housing (410) to the plug engagement portion (412); The plug coupling portion 412 is fastened to the inner circumferential edge of each of the plug coupling portions 412 to a position where the adjustment through hole 420 is communicated with the plug coupling portion 412 so that the plug coupling portion is divided into the plug adjusting chamber PA and the plug fitting chamber 412 A guide disk 430 having a plurality of packing grooves 434 formed at the center of the rod guide hole 432 and having an O-ring for airtightness formed at the periphery of the rod guide hole 432, ; A plug shaft 444 in which a disk-shaped driving disk 446 is integrally formed at one end is formed and an outer circumferential edge is hermetically contacted with the flow control airtight groove 414 so as to maintain the airtightness of the plug coupling portion 412 The plug 442 is coupled to the other end of the plug shaft 444 to interact with the packing sheet 500 to control the fluid and the drive disk 446 is separated from the guide disk 430 by the guide disk 430 The plug 442 is located in the plug adjusting chamber PA of the plug engaging portion 412 and the plug 442 is located in the plug accommodating chamber PE of the plug engaging portion 412 partitioned by the guide disc 430, The shaft 444 is hermetically coupled to the rod guide hole 432 of the guide disk 430 so as to reciprocate linearly so that the drive disc 446 is pushed by the pneumatic pressure supplied through the adjustment hole 420, In the adjusting chamber PA, A fluid control unit 440 that is linearly reciprocated on the axis of the pawl 444 and configured to linearly reciprocate the plug 442 in the plug housing chamber PE to the inclined face 502 of the packing sheet 500 .

The driving disc 446 reciprocates linearly on the axis of the plug shaft 444 in the plug adjusting chamber PA by any one of pneumatic pressure and hydraulic pressure supplied and discharged through the adjustment through hole 420 The plug 442 is formed to be linearly reciprocated within the plug housing chamber PE to the inclined surface 502 of the packing sheet 500 and is operated either manually or automatically.

The present invention is applicable to ordinary fluids and high-temperature and high-pressure fluids, and prevents leakage of steam and fluids due to the clearance between the valves. In addition to excellent durability and versatility, And three-way flow control housings according to the conditions of the high-temperature and high-pressure fluid, and can be variously changed, and the three-minute It is easy to replace due to leakage of high-temperature and high-pressure fluid due to the formation of the first and second housings and the flow control housing, and it is easy to replace and repair internal parts as it is formed in three minutes, So that the maintenance cost can be reduced.

The present invention can reduce the high-pressure fluid pressure in the valve, thereby enabling replacement of a large-capacity high-pressure valve with a valve having a small standard and small capacity, and a pneumatic device for forming a pneumatic, mechanical, , And the flow rate control means of the electric type can be applied, and the versatility is greatly improved.

1 is an overall perspective view of a prefabricated three-way flow control valve according to the present invention.
2 is an exploded perspective view of a prefabricated three-way flow control valve according to the present invention.
3 is an enlarged perspective view of the first housing of the prefabricated three-way flow control valve according to the present invention.
4 is an enlarged perspective view of the second housing of the prefabricated three-way flow control valve according to the present invention.
5 is an enlarged perspective view of a flow control housing of a prefabricated three-way flow control valve according to the present invention.
FIG. 6 is an enlarged perspective view of the guide disk and the fluid control unit of the flow control means of the assembled three-way flow control valve according to the present invention.
7 is a side sectional view of the assembled three-chamber flow control valve according to the present invention.
8 is a use state diagram of the assembled three-chamber flow control valve according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an assembled three-way flow control valve according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an overall perspective view of a prefabricated three-way flow control valve according to the present invention, FIG. 2 is an exploded perspective view of a prefabricated three-way flow control valve according to the present invention, FIG. 4 is an enlarged perspective view of the second housing of the prefabricated three-way flow control valve according to the present invention, and FIG. 5 is an enlarged perspective view of the flow control housing of the prefabricated three- FIG. 6 is an enlarged perspective view of the main part of the guide disk and the fluid control unit of the flow control means of the assembled three-way flow control valve according to the present invention, FIG. 7 is a side sectional view of the prefabricated three- 8 is a use state diagram of the assembled three-chamber flow control valve according to the present invention.

The prefabricated three-way flow control valve according to the present invention is characterized in that a high-temperature and high-pressure fluid is capable of preventing leakage of steam and fluid by a clearance of the valve, and is divided into three divided first and second housings, , And a flow control housing. The first housing, the second housing, and the flow control housing are divided into three parts. The first housing, the second housing, and the flow control housing can easily be replaced due to high temperature and high pressure leakage. It is easy to replace and repair internal parts as well as to replace parts in case of breakage or damage. The control of the first and second housings and the inflow and outflow at the second housing side are performed to control various flow rates. In addition, a high-pressure fluid pressure is reduced in the valve, 1 and 2, the first housing 100, the second housing 100, the second housing 100, the first housing 100, the second housing 100, and the second housing 100 can be replaced, A flow control housing 400 included in the flow control housing 300, and a packing sheet 500. The first housing 200, the flow control housing 300, the flow control housing 400,

The first housing 100 and the second housing 200 are formed such that the high-temperature, high-pressure fluid introduced through the first housing is introduced into and discharged from the inflow pipe or the discharge pipe. As shown in FIGS. 1 to 4, The amount of the fluid discharged to the inflow pipe or the discharge pipe is controlled by the flow rate control means of the flow rate control housing to be described later. The first housing 100 and the second housing 200 have a flange formed at an outer circumferential edge thereof so as to be connected to an inlet pipe or a discharge pipe and have inflow outlets 102 and 202 formed at the center thereof, . Here, the packing sheet is coupled to the peripheral edge of the inflow outlets 102 and 202 so that the inflow and outflow amount of the fluid can be controlled in accordance with the tightly coupled and disengaged flow control means described later.

In addition, flow control coupling portions 104 and 204, which are communicated on the linear flow paths of the inlet and outlet 102 and 202 and are larger than the inlet outlet diameter, are formed on one side. The housing fastening flanges 106 and 206 are formed on the left and right sides of the flow control housing, which will be described later, along the outer circumferences of the flow control coupling portions 104 and 204 so that the first housing 100 and the second housing 200 are flanged. That is, the flow control housing, which will be described later, is positioned between the housing fastening flanges 106 and 206 to be hermetically coupled, thereby suppressing the pressure increase during the inflow and outflow of the high temperature and high pressure fluid, thereby minimizing leakage through the housing.

The housing fastening flange 106, 206 may be replaced with a screw type, and the same action and effect can be obtained. In addition to the above-mentioned inlet pipe or drain pipe, Do.

The flow control housing 300 lowers the pressure of the high-temperature and high-pressure fluid introduced from the inflow outlets 102 and 202 of the first housing 100 or the second housing 200, The flow rate of the fluid discharged to the inlet and outlet ports 102 and 202 of the housing 100 or the second housing 200 is controlled by the flow rate control means 400 to be described later, A plurality of engaging holes 302 are formed between the first housing 100 and the second housing 200 so as to be flanged through the housing fastening flanges 106 and 206 described above. A fluid flow hole 304 is formed through the center and an O-ring groove 306 is formed on the left and right sides between the coupling hole 302 and the fluid flow hole 304 to join the O-ring for airtightness.

The flow passage hole 308 is communicated with the flow passage hole 304 in a downward direction and the tube fastening flange 310 is formed along the outer periphery of the flow passage hole 308. Here, the flow through hole 308 is formed in a direction orthogonal to the inlet and outlet ports 102 and 202 of the first and second housings 100 and 200, thereby performing a three-way valve. In addition, the tube fastening flange 310 may be formed in a screw type so that the tube can be fastened.

In contrast to the above-mentioned configuration, when the flow rate of the first housing side is blocked by the flow rate control means 400 described later and the flow rate of the second housing side is opened, the inflow outlet 202 on the second housing side The fluid is discharged to the flow through hole 308. On the other hand, when the fluid flows through the flow hole 308, the fluid is discharged to the inlet outlet 202 on the second housing side. Further, when the first housing is opened and the second housing is blocked, the flow of the fluid is controlled to flow from the inlet outlet 102 of the first housing to the flow passage hole 308 or the flow passage hole 308 to the inlet outlet 102 .

Furthermore, when both the inlet and outlet ports 102 and 202 of the first and second housings are opened, the discharge is determined according to the direction in which the fluid is introduced in the three openings. That is, the inlet and outlet (102, 202) of the first housing and the second housing are individually operable and individually controllable so that they can be individually controlled for mixing of the fluid, Capacity control and so on. On the other hand, if both the first housing and the second housing are blocked, the flow rate is blocked.

The fluid pressure of the high temperature and high pressure is lower than the fluid pressure of the inflow outlets 102 and 202 at the center of the fluid flow passage hole 304 of the flow control housing 300 and the inflow outflows 102 and 202, And a flow rate control means 400 for controlling the flow rate of the fluid so as to prevent interference with the flow of the fluid is coupled to the first housing 100 and the second housing 200. [ And controls opening and closing of the inflow and outflow ports (102, 202) of the air conditioner (200).

Here, the flow rate control means 400 may control the flow rate of each of the first housing 100 and the second housing 200 individually or simultaneously, and may be controlled at the same time as shown in FIGS. 2 and 5 A trim housing 410, an adjusting aperture 420, a guide disk 430, and a fluid control unit 440 as shown in FIG.

The trim housing 410 is formed integrally with the flow control housing 300 and is formed at the center of the fluid flow through hole 304. The trim housing 410 is coupled with a means for generating a driving force so that the fluid control unit 440, which will be described later, reciprocates horizontally toward one side of the inlet and outlet ports 102 and 202, The plug engagement portion 412 is recessed. The plug coupling portion 412 is in contact with a plug control chamber PA which is sealed by a guide disk 430 to be separated from a high temperature and high pressure fluid and a high temperature and high pressure fluid, (PE).

A plurality of flow control airtight grooves 414 are formed in the inner periphery of the inner periphery, in which the O-rings are combined to control the fluid to interact with the packing sheet 500, which will be described later. Here, the plug 442, which will be described later, is in contact with the packing sheet of each of the inlet and outlet ports 102, 202, and the plug 442 is formed in the plug housing chamber PE formed by dividing the plug coupling portion 412 by the guide disk 430, So as to be reciprocated so as to be released. 7 and 8, when the plug 442 described below is closely contacted with the packing sheet 500 by the O-ring coupled to the flow control airtight groove 414, The high-temperature and high-pressure fluids are prevented from flowing into the inflow and outflow ports 102 and 202, respectively.

A rod guide hole 432 in which a plurality of packing grooves 434 for joining an O-ring for airtightness is formed on the inner circumference of a guide disk 430 to be described later is formed in the plug adjusting chamber PA divided by the guide disk, The plug 442 is formed to be communicated with each other between the plug nesting chambers (PE), so that the driving force of the pneumatic pressure introduced through the adjusting holes to be described later is transmitted to the plug 442, so that high temperature and high pressure fluid control is possible.

At least one of the adjustment holes 420 is formed in the plug engagement portion 412 from the outer periphery of the trim housing 410. 7 and 8, when the linear reciprocating motion of the flow rate control means is controlled by the pneumatic pressure, the adjustment through hole 420 is formed with the compressed air inflow and discharge through holes, The disk can be linearly reciprocated within the plug adjusting chamber PA, and the plug 442 can reciprocate linearly toward the inlet and outlet ports 102 and 202. [ In addition, in the case of the mechanical driving equipment of the adjustment through hole 420, at least one or more of at least one through-hole is formed in the case of the electronic driving equipment so that the plug 442 can be linearly reciprocated.

7 and 8, the guide disc 430 is fastened to the inner peripheral edge of each of the plug engaging portions 412 to the position of the plug engaging portion 412 communicated with the adjustment through hole 420, And the plug coupling portion is hermetically coupled to the plug adjusting chamber (PA) and the plug holding chamber (PE). 6, a rod guide hole 432 is formed through the guide disc 430 such that a plug shaft 444, which will be described later, is hermetically coupled and a linear reciprocating motion is enabled, A plurality of packing grooves 434 are formed at the periphery of the guide hole 432 to receive O-rings for airtight sealing.

The fluid control unit 440 may be configured such that the flow rate of the fluid in the plug retention chamber (PE) formed on the outer side of the plug engagement portion 412 by the guide disk 430, as shown in FIGS. 2, 5, A plug 442 is formed in the control airtight groove 414 so as to be hermetically coupled with the outer periphery in an airtight manner. Here, the plug 442 is in close contact with the packing sheet 500 of the inlet and outlet ports 102 and 202 to control the flow and flow of the fluid. The plug 442 is linearly reciprocated by the inclined surface 502 of the packing sheet 500 to be described later through pneumatic, hydraulic, mechanical or electromagnetic driving force. The plug 442 is hermetically coupled through the rod guide hole 432, And a plug shaft 444 is formed so as to be elongated in the plug adjusting chamber PA.

The plug coupling portion 412 is coupled to one end of the plug shaft 444 located on the plug adjusting chamber PA side formed by the guide disk 430 and is driven to reciprocate the plug shaft 444 A disk 446 is provided. 7 and 8, the driving disc 446 controls the linear reciprocating motion of the plug 442 in accordance with the linear reciprocating motion of the disc by pneumatic pressure, Thereby controlling the discharged fluid. Although the driving disk 446 of this embodiment is pneumatic as an example, it can be formed to be driven by hydraulic pressure, mechanical (gear operation, link operation), electronic, manual or automatic.

2 to 8, the packing sheet 500 is coupled to the inlet and outlet ports 102 and 202 of the first housing 100 and the second housing 200, The slope surface 502 is formed so as to closely contact the flow control means 400 to control the discharge of the fluid to the inflow and outflow ports 102 and 202. When the plug 442 is moved toward the packing sheet 500 to control the flow rate of fluid discharged at a high temperature and a high pressure by the flow rate control means 400, The volume of communication between the inlet and outlet ports 102 and 202 is minimized and the flow of the fluid is smoothly formed. Here, it is preferable that the inclination angle of the inclined surface 502 has an inclination angle of 30 to 45 degrees.

1, 2, 7, and 8, the assembled three-way flow control valve according to the present invention having the above-described structure is configured such that the first housing 100 and the second housing 200 are flow- Are arranged on the same vertical line on both left and right sides of the housing (300). Thereafter, through the bolt through the housing fastening flange 106 formed on the first housing, the coupling hole 302 of the flow control housing 300 is loosely coupled to the housing fastening flange 206 formed on the second housing, 1 housing - flow control housing - second housing in order. As the O-ring is coupled to the O-ring groove 306 of the flow control housing 300, a high-temperature, high-pressure fluid flows between the flow control housing 300 and the housing coupling flange 106, And is prevented from being discharged or lost.

Next, the first housing 100 is tube-coupled with the inflow tube or discharge tube, and the second housing 200 is also tube-coupled with the inflow tube or discharge tube, and the fluid flow through hole 304 of the flow control housing 300, (3) of the present invention in which a high-temperature, high-pressure fluid is tube-communicated with an inlet pipe or a discharge pipe through a tube fastening flange (310) formed at the outer periphery of the flow passage hole (308) And the flow rate is controlled by the flow control valve.

As described above, in the assembled three-way flow control valve according to the present invention, only the flow control housing 300 to which the flow control means 400 is coupled can be replaced, so that the flow control housing (300) can be used in combination, and it is obvious that they can be easily replaced and repaired during breakage, maintenance and repair. That is, if the high-temperature and high-pressure fluid is controlled, damage to the valve due to high temperature and high pressure is frequent. Therefore, it is possible to replace only the damaged part without replacing the entire valve. 100, the second housing 200, and the flow control housing 300 are flanged to improve the sealing force, the valve can be more efficiently used, and the disassembling and assembling is simple and excellent in workability.

As shown in FIGS. 7 and 8, when the fluid is introduced or discharged through the inflow / outflow ports 102 and 202 or the flow through holes 308, the operation of the prefabricated three- The pressure is lowered through the flow control coupling portions 104 and 204 whose diameter is larger than the inflow outlet, and the fluid is dispersed and moved along the outer periphery of the trim housing 410, and the fluid pressure rapidly moves while the high pressure fluid pressure falls. Thereafter, the high-temperature, high-pressure fluid flows down through the flow control holes 104 and 204 of the first housing 100 or the second housing 100 200 into or out of the inflow outlets 102,

When the fluid moves and descends through the inlet port to the inlet and outlet ports 102 and 202 and the fluid control unit 440 is operated according to the operation of the drive disk 446 to control it, And moves to the side of the inclined surface of the packing sheet 500 of the battery pack 102 or 202. A plug 442 is provided at the end of the plug shaft 444 so as to closely contact the inclined surface 502 of the packing sheet 500 to control the flow and the flow rate of the fluid, (102, 202).

When the plug 442 moves as described above, the volume space for the inflow or discharge of the high-temperature and high-pressure fluids flowing into or out of the inflow outlets 102 and 202 is reduced, The flow of the fluid can be controlled while minimizing the pressure impact.

Furthermore, by individually controlling the plugs of the flow rate control means corresponding to the first housing and the second housing, the amount of fluid flowing into or discharged from the inflow outlets (102, 202) of the first housing and the second housing can be individually controlled And it is possible to control the amount of the fluid to be mixed when the fluid is mixed or introduced or discharged. Therefore, it can be widely used not only in the role of a three-way valve for changing the direction of the fluid but also in a field requiring fluid mixing will be.

On the other hand, in order to regain the flow of the controlled fluid again, when the operation sequence is reversed as described above, the inflow outlets 102 and 202 are opened again so that the fluid of high temperature and high pressure can be moved into and out of the tube.

That is, the high-temperature and high-pressure fluid flowing in or out through the inflow outlets 102 and 202 flows through the flow control joints 104 and 204 formed on the flow control housing 300 side, And the processing capacity of the valve is increased or decreased. As a result, the flow control range is wide with one valve, and thus it is possible to provide a more general-purpose, wide-range three-flow control valve, And maintenance costs can be reduced.

That is, the first housing 100 and the second housing 200 can be easily disassembled, and the flow control unit 400 installed in the flow control housing 300 may be damaged due to malfunction, failure, It is easy to replace, and it is easy to check the leakage area due to high pressure through 3-minute valve, maintenance cost is reduced, and it is possible to use only some parts without replacing the entire opening / closing valve. Therefore, unnecessary opening / The cost can be reduced. Further, it is more obvious that the application of the flow rate control means 400 capable of controlling the drive disk in various forms such as pneumatic, hydraulic, mechanical, electronic, manual, automatic and the like is advantageous.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the appended claims. Is within the scope of the description.

100: first housing 200: second housing
102, 202: inflow outlet 104, 204:
106,206: Housing fastening flange
300: Flow control housing
302: engaging hole 304: fluid flow hole
306: O-ring groove 308: Flow passage
310: tube flange
400: flow rate control means
410: trim housing 412: plug coupling portion
414: Flow control airtight groove 420: Adjustable passage
430: guide disc 432: rod guide ball
434: packing groove 440: fluid control unit
442: Plug 444: Plug shaft
446: Driving disk
PA: Plug control room PE: Plug control room
500: Packing sheet
502: slope

Claims (3)

delete A flow control coupling section 104 or 204 which is connected to the linear flow path of the inlet and outlet ports 102 and 202 and is larger than the inlet outlet diameter is formed at a center of the flange, A first housing (100) formed on one side and having housing fastening flanges (106, 206) formed along an outer periphery of the flow control coupling portions (104, 204); A second housing (200); The first housing 100 and the second housing 200 correspond to the left and right sides of the housing fastening flange 106 and 206. The housing fastening flange 106 and the housing fastening flange 106 have flange- An O-ring groove 306 is formed on the left and right side surfaces between the coupling hole 302 and the fluid flow hole 304 so that an O-ring is hermetically held between the coupling hole 302 and the fluid flow hole 304, The flow control means 400 is coupled to control the opening and closing of the inflow outlets 102 and 202 of the first housing 100 and the second housing 200 so as not to interfere with the flow of the fluid, A flow control housing (300) communicating with the flow through hole (308) orthogonally and forming a tube fastening flange (310) along the outer periphery of the flow through hole (308); Are connected to the inlet and outlet ports 102 and 202 of the first housing 100 and the second housing 200 and are connected to the inlet and outlet ports 102 and 202 by the flow control means 400, And a packing sheet (500) having a slope (502) to which the flow control means (400) is closely contacted,
The flow control means 400 is formed at the center of the fluid flow passage hole 304 integrally with the flow control housing 300 and includes a plug engagement portion 412 formed at one end of each of the inlet and outlet ports 102, And a plurality of flow control airtight grooves 414 to which O-rings are coupled at the inner circumferences of tips of the plug engagement portions 412, respectively; (420) symmetrically formed to supply and discharge air from the outer periphery of the trim housing (410) to the plug engagement portion (412); The plug coupling portion 412 is fastened to the inner circumferential edge of each of the plug coupling portions 412 to a position where the adjustment through hole 420 is communicated with the plug coupling portion 412 so that the plug coupling portion is divided into the plug adjusting chamber PA and the plug fitting chamber 412 A guide disk 430 having a plurality of packing grooves 434 formed at the center of the rod guide hole 432 and having an O-ring for airtightness formed at the periphery of the rod guide hole 432, ; A plug shaft 444 in which a disk-shaped driving disk 446 is integrally formed at one end is formed and an outer circumferential edge is hermetically contacted with the flow control airtight groove 414 so as to maintain the airtightness of the plug coupling portion 412 The plug 442 is coupled to the other end of the plug shaft 444 to interact with the packing sheet 500 to control the fluid and the drive disk 446 is separated from the guide disk 430 by the guide disk 430 The plug 442 is located in the plug adjusting chamber PA of the plug engaging portion 412 and the plug 442 is located in the plug accommodating chamber PE of the plug engaging portion 412 partitioned by the guide disc 430, The shaft 444 is hermetically coupled to the rod guide hole 432 of the guide disk 430 so as to reciprocate linearly so that the drive disc 446 is pushed by the pneumatic pressure supplied through the adjustment hole 420, In the adjusting chamber PA, A fluid control unit 440 that is linearly reciprocated on the axis of the pawl 444 and configured to linearly reciprocate the plug 442 in the plug housing chamber PE to the inclined face 502 of the packing sheet 500 Wherein the flow control valve is formed of a metal material.
3. The method of claim 2,
The driving disc 446 reciprocates linearly on the axis of the plug shaft 444 in the plug adjusting chamber PA by any one of pneumatic pressure and hydraulic pressure supplied and discharged through the adjustment through hole 420, (442) is formed to be reciprocated linearly in the plug housing chamber (PE) to the inclined surface (502) of the packing sheet (500), and is operated either manually or automatically.

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